Measuring and filling machine



15 Sheds-Sheet l N?, N\, l l n l l l 1 1 l :+1. Ilfll l||lp1v l- :1| www FTJI www N Nw f lil, N KN w\ @Nv M 5.0%

Dec. l1, 1951 R. G. TRIGGs MEASURING AND FILLING MACHINE Filed Aug. s1, 194s wwhw, www Nmw QNN Q www.. h, Q H ...n @om QAM mi uw? i m n. mmv@ Q Dec. 11, 1951 n. G. TRlGGs MEASURING AND FILLING MACHINE Filed Aug. 31, 1948 15 sheets-sheet 2 JNVNTOR.

z ff.

Dec. ll, '1951 R. G. TRlGss 2,577,933

MEASURING AND FILLING MACHINE f Filed Aug. 51, 1948 15 Sheets-Sheetv 5 IN V EN TOR.

Dec 11, 1951 R. G. TRIGGs. 2,577,933

MEASURING AND FILLING MAHINE Filed Aug. 5l, 1948 l5 Sheets-Sheet 4 Dec. 11,1951

R. G. TRIGGs MEASURING AND FILLING MACHINE l5 Sheets-Sheet 5 Filed Aug. 31, 1948 m i ,w www I I HHPHJIWIWIH. ILMLILMLLH Dec 11, 1951 R. G. TRlGss 2,577,933

y, MEASURING AND FILLING MACHINE Filed Aug. s1, 194e 15 sheets-sheet' 7 Dec. 11, 1951 R. G. TRlGGs MEASURING AND FILLING MACHINE l5 Sheets-Sheet 8 Filed Aug. 3l. 1948 R. G. TRIGGS MEASURING AND FILLING MACHINE Dec. 11, 1951 Filed Aug. s1, 1948 15 Sheets-Sheet 9 JNVENTOR.

Y Je M f/r Dec. 11, 1951 R. G. TRIGGS 2,577,933

MEASURING AND iLLNG MACHINE Filed Aug. :51, 194e 15 sheets-sheet 1o IN V EN TOR.

@af/eve @/w ahw/ZA, Zig

1S sheets-sheet 12 Dec. l1, 1951 R. G. TRlGGs MEASURING AND FILLING MACHINE Filed Aug. 31, 1948 Dec. 11, 1951 R. s. 'muses MEASURING AND FILLING MACHINE Filed Aug. `51, 194e 15 Sheets-Sheet l5 l5 Sheets-Sheet 14 R. G. TRIGGS A MEASURING AND' FILLING MACHINE Dec. 11, 1951 Filed Aug. 3l, 1948 Dec. 11, 1951 R. G. TRIGGs MEASURING AND FILLING MACHINE A 15 sheets-sheet 15 Filed- Aug. 31, 1948 10m SNN..

Sm@ NMS mmm. I

j@ am rw Patented Dec. 11, 1951 MEASURING AND FILLING MACHINE Ronald George Trggs, Chicago, Ill., assignor to TheA Globe Company, Chicago, Ill., a corporation of Illinois Application August 31, 1948, Serial No. 47,073

15 Claims. (Cl. 226-107) The present invention relates to a measuring and filling machine for Viscous materials and has special reference to a machine for measuring a predetermined weight, i. e. volume, of viscous or semi-liquid material, for example, lard or vegetable shortening, into a package.A

In order that a measuring and filling machine have maximum efficiency, it is highly desirable to provide mechanism which will take advantage of the time elapsed between the filling of one package and the filling of the next, there being an interval during which the filled package is removed from beneath the spout of the machine and is replaced by an empty container. By providing a duplex mechanism, each half of which ls operated alternately, a container on one side may be filled While the next empty container is being brought into position on the other side. Then, by using common means for supplying the material to the two iilling spouts, these may be served alternately with a simple arrangement of parts.

The present invention is directed to such a duplex type of machine. It comprises a productmeasuring cylinder having a double-acting piston for supplying identical measured quantities from opposite ends of the cylinder as the piston reciprocates therein.

The material being handled is supplied to the cylinder under substantial pressure, which may be on the order of 400 pounds per square inch. A supply conduit connects the source of material to a valve which in turn is connected by a pair of conduits to the opposite ends of the measuring cylinder. A pair of discharge passages also connects the valve to a pair of discharge nozzles positioned one on each side of the machine.

A four-way main control valve is preferably employed, being arranged to alternately connect the supply conduit to one of the conduits leading to an end of the cylinder and the conduit at the opposite end of the cylinder to one of the discharge passages.

The material, due to the pressure thereon, is fed into one end of the cylinder, forcing the piston toward the opposite end to thereby discharge the material, then in the opposite end of the cylinder through the discharge passage connected thereto.

Accordingly, as the main control valve is moved from one position to the other, the material automatically flows into and out of the op` posite ends of the cylinder, being discharged alternately from the nozzles on each side of 'the machine. The pressure of the material actuates the piston whenever the valve setting is changed,

The present machine is automatic throughout and is controlled by a compressed air system, including various valves and pistons, synchronized with the operation of the main control valve. The compressed air system through suitable mechanism controls the actuation of the main control valve in accordance with the change in pressure in the conduits leading to the ends of the measuring cylinder. The movement of the piston forces the material alternately through the discharge nozzles and into the containers supplied therebelow by conveyor belts. However, automatic means are provided for rendering the ma- Y chine inoperative to discharge material whenever a package is not in filling position below a nozzle.

Automatically operating means maintain the closing flaps of the containers, as well as any liners when they are employed, out of the path ofthe material supplied to the carton. Such means are synchronized with the main control ,valve so as to operate when a package is in position below the nozzle associated therewith and just prior to the discharge of material from the nozzle. As soon as a predetermined charge of ,material has been forced from the nozzle, automatic suction means synchronized with the main control valve is actuated to prevent any dripping from the nozzle. The movement of the cartons from lling position is likewise synchronized with the operation of the main control valve.

The machine is provided with adjusting mechanism for varying the volume of the material being fed and for correlating density and volume of a specific product in order to dispense proper weight thereof upon each operation.

It is to an automatically operating machine of this general type that the present invention is directed.

An object of the present invention is to provide an automatically operating measuring and filling machine for accurately supplying a predetermined charge of material to a container.

Another object of this invention is to provide such a machine whichmay be controlled in its operation by a compressed air system.

Still another object is to provide a machine of the above type which is automatically operated by the pressure of the material supplied thereto and the compressed air system of the machine.

A still further object is to provide a machine rhaving a measuring cylinderwith a piston therein and a main control valve which is caused to be actuated in accordance with the pressure of the material supplied to and discharged from opposite ends of the cylinder.

Another object of the present invention is to provide a machine which will be rendered inef- Iective to discharge material when no carton is positioned in filling position.

A still further object is to provide such a machine having a no-drip arrangement for preventing dripping c f the material after a predetermined "charge has been discharged from a nozzle.

An additional object of the present invention` is to provide means for moving the iilled cartons from filling position so that they may be veyed from the machine.`

Still another object is to provide a machine of the type above indicated which lshall b autmatic throughout and in which the various parts are synchronized to function 'in tiriied reiatin with the main control valve.

Other objects and advantages will beappi'nt from the followingdesription and claims when eensideredfwith 'the aecnparyin'g drawings in whitn latter:

ang- 11, is .oa-lagonelevatore Het fol'itfie lfig. 2 a. partialfforftjelevational fvfew f fthe Yupper portion of the machine forming in sub- `St1j1e fa, cntiiiaiioe "Qf Fig- F12 Figa is a partial righ jnojeiovationai view of ihglve parte# jthejlahine: z

"5 la partial plan lviewfo'f the machine;

Fig-s v1s aview iiilarjto frag. 4 tot moking cross-:section `taken 'on the ntie parts `associated therewith, with certain lparts g, aalst, rosas-sotto@ datan 'taken oh the Fig. 24 'is o motley of 's iibstaatiaiiy 'tHe "ift half o! the table tp'fv the machine;

lio

Fig. 25 is a detail in plan of the carton-switching mechanism and of the interlock for interrupting the fluid feed in the absence of a carton below the discharge nozzle;

Fig. 26' is a front elevation showing certain parts of Fig. 25; Fig. 27 is a view in detail taken on the line 2ll`- 21 of.Fig. 25;

Fig. 2`8 is a cross-sectional detail view taken on the line 28-28 of Fig. 25;

Fig. 29 is a cross-sectional detail view taken 'n the lne 29-f-2'9 of Fig. 25;

Fig. 30 is a detailed cross section taken on the lineil ofFigJ 25;

a detail View looking in the direction of the arrows 3|-3I of Fig. 25; Fig. 32 Vis a diagrammatic layout of the pneumatic system of the machine; and

Fig.`33`is a diagram of the four-way measuring piston switching valve. ing l I "no'ie particularly t0 the drawings. there is 4fsl'iown "a measuring 'and Afilling machine vf`31`ril: `odying the present intended'for processing iluid or V'se'mi-'iliiid mterlal`s o f vari ous kinds, such, for example, yas lshortening in the form or Vladn'r a yegetabiecompound. Such material Vis commonly packaged :in one- -pound cardboard containers `mawin'g 'romane naps and a cover ofthe typeillu'sfratd in the ldrafwings. However, the machinefmay feed the vmaterial processed to containers fiforned 'oi any suitable materiai and of ariyld'esiredshape, vwhfether or not a foldable liner isf'inployed therewith.

The portion of the machine linitially 'receiving the material to be "processed issliown in Figs. 1 3 'and 7. The material 'is fedfunder pressufx'ein viscous formir'om a puipfthrough a pipe 1 0. If necessary,y the "product is heated to permit it`t o now without ju'n'due 'frio'tiooi 1osse's. Pipe In enters a productimeasur'ifng cylinder I'l andl'is secured `by screws I2 to vrth'e lower 'trarne mem'- bers I3. C'ylinder I`i 'preferably a `fcas'tixig havirig a centran vopening rs "within 'with a jsiiuglyffittl'ng free piston 'I1 is adaptedto slide 'under pressure of the product bing delivered "to the maoiijiiia nSuch pressure 'is maintained by "a `s'i'iitabl'e pump i(not shown) and mayy for lard', been the'orderoi 400 pounds per square Sealing of one vface ofthe ypisttmwith respect to 'the other is augmented by peripheral 4grooves I B.

Movement 4oi th'e piston Il from one position' to another is limited by a'pai'r of adjustable stop buttons 2 2 Ia. eachfrmdon fthe inner end of the ladjusting screws '22, 22 L fthreadedly leri-- gaged in heads '23, scour/edito the f the cylinder Il by screws 24. Hand wheels 21, ?.laspue to. the, Srewd ZZRSP'SQHYQY may becmployedior moving the ybuttons 2l and' .2m aallyto alterfhegegg? 0f mOi/ empi 0f the piston I 1 in eitherdirection, Veryprecise adjustment of piston travel may be achieved by reasoncfthe screws 2 2 and 22a, and the setting then accurately maintained by Vlocking leyers vIl and 3 Ia threaded on the screws 22 and 22a and abutting the heads 23 and Na,

The vilow oi material from the pipe YIi) to the opening I6 of the cylinder Il is by means oi' channel 32 (Fig. 7) cast intothe lcylinder wall and communicating with a valve chamber 33;. The latter Y is cylindrical in form and Vsnugly receives the rotary valve body 35 keyed 'as 'at 36 tof a valve shaft or stem 3l. Body 351s cored vas bes't- 'valve body 35 and the respective ends of the cyl-l inder opening I6 is furnished 'by a pair'` of channels 43 and 43a. also preferably integrally cast into the cylinder.

The valve shaft 31 is rotatably supported in bearings 45 carried in fixed caps 41 and 48, the latter including a conventional stufling box 5|. At its forward end the shaft 31 has a rocker arm 52 secured thereto and additionally a hand lever 53, the latter two parts being keyed and setscrewed in the usual fashion. As shown in Fig. 1|), the arm 52 is provided with a spherical end 55 for a purpose to be detailed.

Turning again to Fig. 1, the lever 53 has an upward extension 51 to which is pivotally connected the link 58, the opposite end of the link being connected to the operating handle of a four-way valve 58 supported in any convenient manner on the cylinder I I. Valve 58 is of a common type and will be best understood from the diagram of Fig. 33 wherein the rotor is indicated at R and the four ports of the valve at A, B, C and D. Rotor R has two channels G and H and is shiftable between two positions 90 apart.

Shifting of the valve rotor R may be accomplished manually by the handle 53 or automatically in timed sequencevbypneumatic means. Referring to Figs. 7, 8 and 23, such means, de-

scribed herein as an air control, comprises a pair of control cylinders 55 and 55a. securedvtogether with a pair of pilot cylinders 56 and 65a to the cylinder I by screws 01. Cylinders 55 and 55a each include a bore 08 and 58a within which pistons 1| and 1|a are adapted to slide, the latter each having a pair of peripheral channels 12 and 13, and being limited forwardly in stroke by abutment with the screwed plugs 14. Each of the plugs 14 has a peripheral groove 15 in communication with a port 11 diametrically through the plug, in turn in communication with axial port 18. A diametrically positioned channel 18 across the inner face of plugs 14 is also in corn- Inunicaticn with port 18.

Air is admitted to plugs 14 and hence to the face of pistons 1| and 1| a by means of the openings 32, passages 83 and circular grooves 84 in alignment with the grooves 15. The openings 82 also continue into the passages 35, adapted to be placed into uid communication with grooves 13 upon reciprocation of pistons 1| and 1Ia rearwardly of the machine, as shown at the left in Fig. 8.

Rigidly secured to bosses 92 extending laterally from cylinders 55 and 65a is a tube 93 defining a cylinder opening 94 within which a doubleended piston 55 is adapted to slide. Resilient washers 05 (Fig. 23) seal the piston in the open- 34. As seen best in Fig. the cylinder 93 is slotted at 85a to receive the rocker arm 52 and the spherical end 55 thereof is in engagement with the piston 95 by vvirtue of a slot 91 therein.

Each boss 92 has an axial bore I0! and a diagonal bore |02 (Fig. 23) providing an air passage between the passage 85 and cylinder opening 84 when groove 13 is in rearward position. A further pair of passages |03 in the bosses 82 provide communication between ports |04 (Fig. 23) and cylinder opening 94 via channels 12.

Pilot cylinders 55 and 50a slidably receive the pilot pistons |85 and Itla, each having a head |31 adapted to abut the pistons 1I and 1|a. Grooves |08 in the periphery of the pistons |06 and I00a provide sealing as is understood in the art. It will be observed that the rearward end of each piston I 06 and |06a protrudes respectively into passages 43 and 43a of the cylinder I I, the latter being best seen in Figs. 1 and 7.

Delivery of the measured product from the cylinder opening I6 to the upper part of the machine and thence to the discharge spouts is through a coupling III (Fig. 1') attached at its lower end -to the top of cylinder I I by screws I I2 and at its upper end to the table top ||3 and to a hollow post Vl I4 by screws II5. The coupling III has a pair of passages II8 and IIBa' in communication with the passages I I9 and I 13a in the cylinder II (Fig. 9).

Post ||4 is likewise dually channeled. at |22 and |22a to mate with channels ||8 and ||8a (Fig. 2). Referring now to Fig. 12, the post I|4 is surmounted vby a body or casing |25 having -a pair cf parallel, vertically disposed apertures |28 and I 26d in alignment respectively with channels |22 and |22a, the apertures being enlarged at their mid-zones as at |28 and interconnected with laterally disposed openings |29 and |29a (Fig. 16) directed respectively toward the right and left ends of the machine. Into each aperture I 25 and |26d is tightly pressed a sleeve |32 and |32a chamfered at the lower end as at |33 to reduce nuid friction and, in the region of the enlargements |28 provided with homogenizing nozzles. v

Turning to Figs. 16, 17 and 18, these nozzles are formed by rst providing a flat face |35 on the sleeves |32, |3211 and then slitting the resulting thinned-out walls in these sleeves to provide pairs of parallel slots |31.

Arranged to slide in the apertures |4I of the sleeves |32 and |32a are the plungers |42 and |42a each having a head |43. In the event the product below the plungers |42, |42a has a tendency to be forced past the plungers |42, |42a there are provided in the bores I4I channels |45 in coinmunicationwith holes |40 opening to the discharge side of the slots |31.

The plungers |42 and |42a are driven upwardly by the pressure of the product being forced into the sleeves |32 and I32a and are positively returned by pneumatic means. Such means are carried in a housing |5| (Fig. 12) secured to the casing |25 by screws I 52. Pistons |53, I53a are slidable within bores |54 of the housing and have the customary sealing grooves and packing shown. Each piston is adapted to abut its individual plunger |42 or |42a through the medium cf the heads |43, and is provided with a pad |55 arranged to strike a resilient bumper |51 carried in a socket |58 at the end of a threaded stem |59. The latter are threadedly supported in caps |60 threaded in housing |5I. The stems |58 are each provided with a handle |52 and a locking handle |63 whereby the position of the bumpers |51 may be varied to fix the upper limit of travel of the pistons |53, I53a, and hence of the plungers |42, |42a.

Air from a source of supply is admitted to cylinder openings |54 through port |35 communicating therewith through conduits |66, or through port |68 in communication with port |65 through passage |69 (Fig. 14). Exhaust from the opening |54 is via grooves |12 (Figs. 12 and 15), cavity |13, passage |14 and port |15.

After being forced through the homogenizing slots |31 the product is permitted to expand into elongated chambers I8! and I Bla defined by cylindrical casings |82 and |82a (Fig. 12) and closed by screwed plugs |83. The casings |82 are secured to the body |25 by screws |84, the chambers |8I 'being in alignment respectively with the openings |29 and |29a. Opening off the chambers |8| are the hollow right angled 7 arms |81 and |91a defining passages |88 and |88a (Figs. 5 and 12).

Inasmuch as the arms |91 and |81a are similar in construction and function, only one and its cooperative parts will be detailed. Turning to Figs. 12, 19 and 20, the arm |81a leads into a nozzlesupporting body |92, the arm forming a support therefor. Passage |88 continues downwardly to the lower end of the body |92 and is smooth bored at |95 to receive the nozzle sleeve |98 (Fig. 11) threaded at its lower end to adjustably receive a correspondingly threaded part of the nozzles |91 and |91a. Set screws 20| secure the sleeves |98 with respect to the bodies |92. Lock nuts 202x any adjusted position of the nozzles |91 or |91a, To reduce the size of the stream of discharging product, a .nozzle piece 204 is threaded into each of the nozzles |91 and |91a, insertion or removal thereof being facilitated by the knurled periphery shown.

Following the discharge of a measured amount of the product into a package it is desirable to achieve a sharp cut-off of the stream being emitted from the nozzle piece 204, for otherwise, there would be dripping from the nozzle and a consequent messy condition of the machine and of the packages. I accomplish this object by novel means now to be described, and for convenience referred to as the no-drip feature.

l Fitted into a boss 2| at each side of each body |92 (Figs. 2 and l2) is a nipple 2|2 which supports one of the dual cylinders 2|3 and 2|3a. Each end of the cylinder is provided with a screwed cap 2 |4, 2 l5, the former being apertured for connection with the nipple 2 I2. At its center each cylinder 2|3, 2|3a is partitioned by a member 2|1 comprising an annular supporting ring 2|9 having a pair of axially positioned blind holes 2|9 and 220 in' communication respectively with air fittings 222 and 223. Within the two compartments 224 and 225 of the cylinder 2|3 a double headed piston is arranged to operate, one head, 221, working within the innermost compartment 224, and the other, 228, in the outermost compartment 225. A piston rod 23| secures the two pistons for point reciprocation, the packing 232 within the member 2|1 sealing .one compartment with respect to the other. A

compression spring 233 interposed between member 2|1 and piston 228 biases the double piston .ways outwardly. Exhaust from compartment 225 is permitted through a passage 235 in the cap 2|5.

When the pistons 221 and 228 are moved outwardly, a suction is created in the inner end of the cylinder which causes the material in the adjacent spout to be sucked therein, thereby 4preventing dripping. As hereinafter explained in detail, the compressed air system of the machine controls the movement of the piston in `the cylinders 2|3 to cause actuation of the nodrip -mechanism as soon as a change of material has been delivered from its associated spout.

, In order to maintain the cover flaps and tissue liner, of a carton fully open during the filling operation there is provided what will be sometimes hereinafter termed a spreader," and best shown in Figs. 19 through 22. Secured to a suitable pad at the top of the body |92 is a bracket 24| including a circular threaded boss 242 to which a cylinder 243 is attached. A screwed bushing 244 closes the upper end of the cylinder Y243. Within the cylinder a piston 245 is adapted to reciprocate the piston rod 248 extending exteriorly of the cylinder through packing 241. Annular bumpers 249 and 249 absorb 8 shock upon reciprocation in either direction. Admission and exhaust of air for the doubleacting piston 245 is by way of ports 252 and 253 in the bushing 244 and boss 242 respectively.

Piston rod 248 continues exteriorly of the boss 242 in a square guiding portion 255 arranged for sliding in a channel 258 (Fig. 22) of block 251. Screws 258 secure a cover plate 259 and block 251 to the body |92. At its lower end the portion 255 is enlarged and has two lateral notches 282 (Fig. 11) Through an aperture 283 of the portion 255 a pin 284 is passed and receives a pair of swingable bifurcated arms 285 and 288 (Fig. 21). To each arm is secured a rod 288, there being a screw 289 and locknut 21| for the purpose. A tension spring 280 spread between screws 289 constantly biases the arms 285 and 288, and hence the rods 288, to the closed position shown in Fig. 20.

Rods 288 are adapted to be operated, while in closed position, downwardly until the lower ends of the rods are intermediate the flaps of the carton and the upstanding sides of the tissue liner. At this juncture it must be explained that a conventional one-pound lard carton, for example, is closed by two short end naps and an overlying full sized flap having a foldable tuck-in portion, while a tissue lining for the same, would, before being folded over the product, have four upstanding sides. To insure that these sides as well as the carton flaps are out of the way of the stream of product, the rods 288, after being lowered, are opened whereby the tissue liner is spread apart and the long flap and short end flaps of the carton are also held open.

Accordingly, the rods 288 are forced to open position by the two arms 285 and 288 striking a pair of adjustable lower stop screws 213 threaded into lugs 214 of the body |92 and secured in selected position by locknuts 218. Proper closing of the rods 288 is attained by the provision of adjustable upper stop screws 211 carried in lugs 218 of body |92, also equipped with locknuts 219. It will be noted that rods 288 are offset, as seen in Fig. 19, so that neither one strikes the other, with obviously unsatisfactory functioning. The empty containers are brought to the machine in any convenient way, but in any event are shown as arriving at the left hand side thereof on a conveyor belt 28| (Figs. 24 and 26) carried on a pulley 282 secured to a shaft 283 journalled in bearings 284 bolted to the underside of the table ||3. Upstanding guide plates 286 and 281 adjustably secured to the table top prevent the containers from becoming dislodged from the belt.

After the cartons are thrown from the belt 28| they come to rest successively against a stop rail 289, from which position they are switched alternately to one or the other of the conveyor belts 29| or 292 running on pulleys 293 or 294, the belts traversing substantially the full length of the machine table and being carried around similar pulleys 295 and 298 at the far end oi' the table. Pulleys 293 and 294 are also mounted on shaft 283, the latter deriving power through the belts from pulleys 295 and 298 (Fig. 5). A shaft 299 mounted similarly to the shaft 283 carries a sprocket 39| driven by a chain 302 from sprocket 303 keyed to the output shaft 304 of a After being filled, the packages from both sides of the machine exit on a discharge belt 301 passing over a pulley 308 which is driven by a chain drive 309 from shaft 299. To retain the cartons on the belts 29| and 292, guide rails 3|| are provided, these being supported on adjustable brackets 3|2 on the'table top ||3. (It will be noted that the rails 3|| curve inwardly at the right hand end of the machine (Fig. 5) in order to guide the filled cartons properly onto the belt 381.) The belts 28|, 29|, 292 and 301v lie on metal plates 3 I3, for example, as shownin Fig. 3. Tension is applied to belts 29| and 292 by a pair of idler pulley assemblies of a common type indicated generally at 3|5 (Figs. 24 and 26), and since forming no principal part of the invention, are not described further.

Switching of the empty -cartons alternately from belt 23| to either of belts 29| and 292 is accomplished automatically by pneumatic means now to be described. Referring particularly to Figs. 25, 26, 28 and 29, a cross bar 32| supported at both ends on the framework of theV machine, as shown, carries a pair of brackets 322 each including a cylindrical boss 323 over which is pressed a cylinder 324. Reciprocable therein is a pair of pistons 325 and 326 united by a rod 321. The latter is of square cross section except at its ends where the pistons are secured. Adjustable bumpers 328 carried in threaded studs 329 absorb the shock of the pistons 325 and 326. Locknuts 33| serve the customary purpose. Admission and exhaust of air behind piston 325 is through a port 3|9, and behind piston 326 through a port 320.

At the mid-point of the piston rod 321 there is secured a shoulder screw 332 (Fig. 28) carrying rollers 333 engaged intermediate the furcations of the arm 334. The upper roller reduces friction in so far as arm 334 is concerned and the lower one is adapted to reduce friction in so far as the slot 335 is concerned, the latter being cut into the wall of the cylinder 324. y

Arm 334 is attached to a U-shaped slide block 338 reciprocable horizontally on the bar 32|, a cover plate 34| serving to secure the block on the bar. Upstanding ears 342 on the arm 334 denne la slot within which there is secured by means of a screw 343 a blade 344. The latter (Fig. 24) extends upwardly through the table top I3 and is free to reciprocate between the belts 29| and 292, a clearance opening 345 being provided therefor.

Clamped to both block 338 and arm 334 by bolts 341 is a rectangular bar 35| extending substantially the depth of the machine and provided with blocks 352 slidablybearing on guide bar 32|. Fastened adjacent each end of the bar 35| are cam blocks 354 and 355 each having two sloping surfaces 356 and 351 (Figs. 25 and 30). It willv be understood that blocks 354 and 355 are mirror counterparts of each other.

Pivotally mounted in bearings 36 36| secured to the table top (Figs. 1 and 25)A are bell crank members 362 including a blade 363 and an arm 364. A clevis 365 connects the arm 364 to` the operating bar 366, each bar lbeing operative relation with its individual cam block 354 or 355. A spring 368 secured intermediate Athe bar 366 and a support 369 urges the bar 366 to the left. Support 369 is carried upon the frame of the machine as clearly shown in Fig. 25. Reciprocation of the bars 366 is limited by projections 367 secured to the bars and engageable with adjustable stops 318 depending from tableA top ||3 (Fig. 1). .e y .Y

At their left endL the bars 366 are beveled as shown in Fig. 25 for engagement by cam surfaces 356, and are chamfered at 3| as shown in Fig. 31. The clevises 365 are sufficiently loose with respect to the bell cranks 362, and are sufficiently long to permit thev bars 366 to be lifted from the positionindicated in the drawings by engagement therewith ofthe sloping surfaces 35'! of the cam blocks 354 and 355 as the blocks move back and forth. In being simultaneously lifted and reciprocated each bar rides between a pair of rollers 372- (Fig. 31) rotatable on pins 373 Xed in the support bar 369. At their lower ends the pins are xed in a retaining plate 375 secured underneath bar 369, which plate also supports the rollers 312.

VCompressed air in the hydraulic system is alternately admitted behind the pistons 325 and 326 causing reciprocation thereof together with the blade 344 and cam blocks 354 and 355. Movement of the blade forces packages from the belt 28|V alternately to the side belts 29| and 292. Inward movement of the cam blocks 354 and 355 forces the bars 366 `toward the bell-crank members 362 and shifts the lled packages inwardly beyond the positioning stops, permitting the belts 29| and 307 to remove the filled packages. The admission of the compressed air to the cylinder 324 is synchronized with the operation of the main -control valve of the machine to effect movement of the pistons in the cylinder whenever a package is filled.

If, due to interference with the flow of empty cartons to the machine or other cause resulting in failure of a carton to be positioned below one or Vthe other of the filling nozzles, or in the event the sides of a carton are crushed and the same is unfit for iilling, it is desirable to stop the machine until the difficulty is remedied. This result is accomplished by what hereinafter will be sometimes termed the no carton-no ll assembly now to be described.

Adjacent the path of travel of the cartons on the belts 29|, 292 (Fig. 25) is a pair of ngers 38| (Fig. 27), the zone of operation of the fingers being in the space normally occupied by the cartons being lled. When in such position the cartons abut xed stops 382-382 carried by a convenient one of the brackets 3|2.l

The fingers 38| are part of bell crank levers 384 rotatable in bearings 385 fixed to the table top ||3'. The other arm 386 of each lever carries an adjustable operating button 381. Carried below vthe table top ||3 is a pair of angularly disposed cylinders 388 and 388a each enclosing a plunger 389 and 388a normally urged outwardly of the cylinder by springs 39|. Each plunger is reduced in cross section to pass outwardly of the cylinder and terminates in a head 392 adapted to be engaged by the buttons 381. The cylinders 388, 388g andV plungers 389, 389:: constitute air control valves.

Plungers 389, 38911 operate tointerrupt or permit air flow between ports 395 and 398 and 395a and 396a` respectively, it being noted that ports 395 and 395a are interconnected by tubing 391. Travel of plungers 389, 3830', is gauged by adjustable stops 398 threadedly engaged ,inthe end of cylinders 388 and 388g. Rocking movement of levers 384 is limited on return stroke by a xed stop 40| secured underneath table top H3, and engaged by buttons 387.

Unless the plungers 388 and 388e are maintained in inner position due to the lingers 38| being heldin inner p osition by the packages. in 

